Highly Ordered Hierarchical Mesoporous MnCo2O4 with Cubic Iα3d Symmetry for Electrochemical Energy Storage

Xiao, Changlong; Zhang, Xinyi; Mendes, Tiago; Knowles, Gregory P.; Chaffee, Alan; MacFarlane, Douglas R.

Highly Ordered Hierarchical Mesoporous MnCo2O4 with Cubic Iα3d Symmetry for Electrochemical Energy Storage

2016

Highly ordered cubic Iα3d mesoporous MnCo₂O₄ with crystalline framework was synthesized through a facile nanocasting method. The obtained mesoporous MnCo₂O₄ possesses hierarchical porosity with pore sizes of about 5 and 17 nm, respectively, and exhibits an enlarged surface area (133 m²/g) compared to binary mesoporous Co₃O₄ (98.6 m²/g) and MnO₂ (75.0 m²/g). Significantly, the hierarchical mesoporous structure of MnCo₂O₄ is beneficial for exposing more electroactive sites, improving the charge transfer and facilitating the ion transport. As a consequence, the mesoporous MnCo₂O₄ shows a high charge storage performance of 199 mAh g–¹ at a current density of 1 A/g, long cycle stability, and excellent rate capacity. This study demonstrates ordered ternary mesoporous materials with controllable porosity that have great potential for high-energy-density electrochemical energy storage.

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